Be careful not to confuse: Opaque objects are those that do not allow light to pass through it, but they can reflect light. It is BLACK objects that absorb all the incident light on it. To conclude, opaque objects do not necessarily absorb all the incident light on them but black objects ABSORB all the incident light on them (and are, of course, opaque)
An opaque object transmits very little light, and therefore reflects, scatters, or absorbs most of it.
An opaque object that absorbs green light would appear magenta, which is the complementary color to green. This is because the object absorbs green light and reflects red and blue wavelengths, which combine to produce magenta.
Yes, an opaque object can block light because it does not allow light to pass through it. When light hits an opaque object, the material absorbs or reflects the light, preventing it from passing through to the other side.
true
When light rays hit an opaque object, they are absorbed or reflected. The object appears opaque because it reflects most of the light that hits it and absorbs very little. This is why we cannot see through opaque objects.
An opaque object transmits very little light, and therefore reflects, scatters, or absorbs most of it.
yes?
An opaque object that absorbs green light would appear magenta, which is the complementary color to green. This is because the object absorbs green light and reflects red and blue wavelengths, which combine to produce magenta.
Yes, an opaque object can block light because it does not allow light to pass through it. When light hits an opaque object, the material absorbs or reflects the light, preventing it from passing through to the other side.
true
When light rays hit an opaque object, they are absorbed or reflected. The object appears opaque because it reflects most of the light that hits it and absorbs very little. This is why we cannot see through opaque objects.
An opaque object absorbs all the light that hits it. That's whythere's never any light left to come out of the other side.
When light encounters an opaque object, the object absorbs or scatters the light, preventing it from passing through. This results in the shadow effect as no light can pass through the object, creating a dark area behind it.
The color of an opaque object is determined by the wavelengths of light it reflects. The object absorbs certain wavelengths of light and reflects others, which our eyes perceive as color. For example, an object that appears red absorbs most colors of light except for red, which it reflects.
An object that does not let light pass through it is called opaque. It absorbs or reflects light, preventing it from transmitting through the object. Examples of opaque objects include wood, metal, and walls.
An opaque object has a particular color because it absorbs certain wavelengths of light and reflects others. The reflected light is what we perceive as the object's color.
When light strikes an opaque object, the light is either absorbed, transmitted, or reflected. The object appears to be a certain color because it reflects certain wavelengths of light and absorbs the rest.